Root capacitance measurements allow non-intrusive in-situ monitoring of the seasonal dynamics and drought response of root activity in two grassland species

Background and aims In this study, the potential of non-intrusive root electrical capacitance (C R ) measurements for monitoring the seasonal changes and drought response of root activity was tested on two grassland species in a climate change experiment. Methods C R was detected between a ground el...

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Bibliographic Details
Published in:Plant and soil 2020-04, Vol.449 (1-2), p.423-437
Main Authors: Cseresnyés, Imre, Rajkai, Kálmán, Szitár, Katalin, Radimszky, László, Ónodi, Gábor, Kröel-Dulay, György
Format: Article
Language:English
Subjects:
Autumn
Biomedical and Life Sciences
Capacitance
Climate change
Correlation analysis
Drought
Ecology
Electrodes
Flowering
Global temperature changes
Grasslands
Growing season
Injury prevention
Life Sciences
Moisture content
Monitoring
Plant Physiology
Plant Sciences
Rain
Rainfall
Regular Article
Seasonal variations
Soil moisture
Soil Science & Conservation
Soil water
Soils
Species
Summer
Water content
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Summary:Background and aims In this study, the potential of non-intrusive root electrical capacitance (C R ) measurements for monitoring the seasonal changes and drought response of root activity was tested on two grassland species in a climate change experiment. Methods C R was detected between a ground electrode inserted into the soil and a plant electrode attached to the stem of the perennial grass Stipa borysthenica and the biennial herb Crepis rhoeadifolia in control and drought plots throughout two growing seasons. A pilot study revealed that C R was strongly correlated with root biomass for a given time and soil water content. The effect of changing soil water content on the measured C R value was accounted for by means of species-specific experimental calibrations. Results Root activity (C R ) was found to peak at the flowering stage in late spring ( S. borysthenica ) or early summer ( C. rhoeadifolia ). Both the natural shortage of rainfall and the experimental summer drought reduced root activity in both species. Stipa borysthenica displayed great plasticity in root activity, including quick post-treatment recovery during the rainy autumn. The changes observed in root activity were similar to those previously recorded using conventional root investigation techniques (i.e. destructive, minirhizotron, ingrowth core) in temperate grasslands. Conclusions Root capacitance measurements proved to be adequate for monitoring root activity in situ in natural grassland. The method could be particularly useful in studies where plant injury or soil disturbance need to be avoided.
ISSN:0032-079X
1573-5036
DOI:10.1007/s11104-020-04505-4